Keywords: برج خورشیدی; Solar power tower; Heliostat; Incident solar flux; Digital image analysis;
مقالات ISI برج خورشیدی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: برج خورشیدی; Solar power tower; Pressurized volumetric receiver; Coupled characteristic of optical-thermal-stress; Heat transfer; Stress;
Keywords: برج خورشیدی; Solar power tower; Solar external receiver; Fine grid model; Thermo-mechanical analysis;
Keywords: برج خورشیدی; Solar Power Tower; Heliostat spillage; Symmetric flux map; Flat concentration profile; FluxSPT tool;
Keywords: برج خورشیدی; Solar power tower; Heliostat field design; Genetic algorithm; Crossover operation; High-dimensional optimization;
Keywords: برج خورشیدی; Solar power tower; Beam-down; Molten salt; Natural circulation loop; CSP;
Keywords: برج خورشیدی; Solar power tower; Solar receiver; Heliostat-receiver model; Supercritical power block; Molten salt;
Keywords: برج خورشیدی; Solar power tower; Heliostat optical quality; Flux distribution; DIRECT algorithm;
Keywords: برج خورشیدی; Solar power tower; Optimal solar absorptivity distribution; Solar flux distribution; Non-dominated sorting genetic algorithm;
Keywords: برج خورشیدی; Solar power tower; Multi-tube cavity receiver; Optical model; Multi-point aiming strategy; Real-time solar flux; Real-time efficiency;
Keywords: برج خورشیدی; Solar power tower; Solar central receiver system; Solar thermal power plant; TRNSYS; CSP;
Keywords: برج خورشیدی; Solar power tower; Multi-point aiming strategy; Solar flux distribution; Uniformity; Optics loss; Non-dominated sorting genetic algorithm;
Keywords: برج خورشیدی; Tripod heliostat; Solar power tower; Structural optimization; Cost optimization; Ray tracing;
Keywords: برج خورشیدی; LHTES; Solar power tower; Phase change material; Prilling;
Keywords: برج خورشیدی; Annual optimization; Differential evolution algorithm; Genetic algorithm; Heliostat field layout system; Solar power tower; Solar central receiver system
Keywords: برج خورشیدی; Solar power tower; Multi-panel cylindrical receiver; Flux density concentration; Oblique projection; Heliostat field optical efficiency; Multi-aiming strategy
Keywords: برج خورشیدی; Flux distribution; Solar power tower; Optimization; Genetic algorithm
Keywords: برج خورشیدی; Solar power tower; Molten-salt central-receiver; Film temperature; Radiation effective temperature; Tube corrosion; Thermal stress;
Keywords: برج خورشیدی; Central receiver technology; Solar power tower; Heliostat control; Solar tracking;
Keywords: برج خورشیدی; Solar power tower; Two-axis tracking; Arbitrarily oriented axes; Heliostat field; Target-aligned heliostat; Field-aligned heliostat
Keywords: برج خورشیدی; Solar power tower; External tubular receiver; Variable velocity; Generation capacity; Solar field;
Keywords: برج خورشیدی; Solar concentrating power; Solar power tower; Multifaceted heliostat; Thermal storage; Jatropha curcas
Keywords: برج خورشیدی; CLFR; Compact Linear Fresnel collector; CRS; Central Receiver System; CSP; Concentrated solar power; CST; Concentrated solar thermoelectric; DNI; Direct Normal Irradiance; DSG; Direct steam generation; HCE; Heat Collector Element; HFC; Heliostat field col
High temperature systems using solid particles as TES and HTF material: A review
Keywords: برج خورشیدی; Concentrated solar power; Solid particles; Thermal energy storage; Sensible heat storage; CSP components; Solar power tower; Heat exchanger; Solid particle receiver;
Numerical study on thermal stress and cold startup induced thermal fatigue of a water/steam cavity receiver in concentrated solar power (CSP) plants
Keywords: برج خورشیدی; Thermal stress; Fatigue failure; Cavity receiver; Membrane wall; Solar power tower;
A systematic comparison of different S-CO2 Brayton cycle layouts based on multi-objective optimization for applications in solar power tower plants
Keywords: برج خورشیدی; Solar power tower; Supercritical CO2 Brayton cycles; Molten salt; Systematic comparison; Multi-objective optimization;
Global optimization of solar power tower systems using a Monte Carlo algorithm: Application to a redesign of the PS10 solar thermal power plant
Keywords: برج خورشیدی; Global optimization; Solar power tower; Lifetime performance; Heliostat field layout;
Entropy generation and Carnot efficiency comparisons of high temperature heat transfer fluid candidates for CSP plants
Keywords: برج خورشیدی; Heat transfer fluid; Entropy generation; Concentrating solar power; Molten-salt; Solar power tower;
Thermodynamic analysis and optimization of a molten salt solar power tower integrated with a recompression supercritical CO2 Brayton cycle based on integrated modeling
Keywords: برج خورشیدی; Solar power tower; Supercritical CO2 Brayton cycle; Molten salt; Parameter optimization; Exergy efficiency; Genetic algorithm;
Integration between supercritical CO2 Brayton cycles and molten salt solar power towers: A review and a comprehensive comparison of different cycle layouts
Keywords: برج خورشیدی; Solar power tower; Supercritical CO2 Brayton cycles; Molten salt; Efficiency; Specific work; Thermal energy storage;
Thermodynamic analysis and comparison for different direct-heated supercritical CO2 Brayton cycles integrated into a solar thermal power tower system
Keywords: برج خورشیدی; Direct-heated S-CO2 Brayton cycles; Solar power tower; Complete mathematical model; Thermodynamic analysis; Performance comparison;
High temperature hydrogen production: Design of a 750Â KW demonstration plant for a two step thermochemical cycle
Keywords: برج خورشیدی; Solar power tower; Thermochemical cycle; Hydrogen; Receiver-reactor; Heat losses;
Energy and exergy analysis of a closed Brayton cycle-based combined cycle for solar power tower plants
Keywords: برج خورشیدی; Combined cycle; Exergy analysis; Organic Rankine cycle; Solar energy; Solar power tower; Central receiver;
Entropy, exergy, and cost analyses of solar driven cogeneration systems using supercritical CO2 Brayton cycles and MEE-TVC desalination system
Keywords: برج خورشیدی; Solar power tower; Cogeneration system; Supercritical carbon dioxide; Recompression Brayton cycle; Regeneration Brayton cycle; MEE-TVC desalination
A novel integrated simulation approach couples MCRT and Gebhart methods to simulate solar radiation transfer in a solar power tower system with a cavity receiver
Keywords: برج خورشیدی; Solar power tower; Solar cavity receiver; Gebhart method; Monte Carlo ray tracing; Solar flux distribution; Cavity effect;
Multi-objective optimization of a solar-hybrid cogeneration cycle: Application to CGAM problem
Keywords: برج خورشیدی; Renewable energy; Solar energy; Solar power tower; Multi-objective optimization; Cogeneration; CGAM problem;
Control of the flux distribution on a solar tower receiver using an optimized aiming point strategy: Application to THEMIS solar tower
Keywords: برج خورشیدی; OAPS, optimized aiming point strategy; NREL, National Renewable Energy Laboratory; AP, aiming point; H, Heliostat; m, mirror; M, module; SL, spillage lossesAiming point strategy; Solar power tower; Solar receiver; Open loop control
An integrated solar thermal power system using intercooled gas turbine and Kalina cycle
Keywords: برج خورشیدی; Solar gas turbine; Kalina cycle; Water-saving; Solar power tower
A review of concentrating solar power plants in the world and their potential use in Serbia
Keywords: برج خورشیدی; Solar energy; Concentrating solar power (CSP) plants; Parabolic trough; Solar power tower; Parabolic dish; Fresnel reflector;
Modeling and dynamic simulation of the collector and receiver system of 1 MWe DAHAN solar thermal power tower plant
Keywords: برج خورشیدی; Solar power tower; Receiver system model; Dynamic; Simulation
One-point fitting of the flux density produced by a heliostat
Keywords: برج خورشیدی; Solar power tower; Flux density model; Heliostats